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Diffusioosmosis of electrolyte solutions in axisymmetric channels

Elena F. Silkina

Abstract

We present a theory of a flow of salt solutions in long axisymmetric channels induced by concentration and pressure drops between their ends. The consideration is restricted to thin, compared to the local radius, electrostatic diffuse layers, but remains valid even when the concentration drop is quite large. We show that the magnitude of the diffusio-osmotic fluid flow rate $Q_{DO}$ in the cylinder is the same as in the slit of equal to its diameter thickness, but channels of variable cross-sect...

Submitted: July 17, 2026Subjects: Chemistry; Chemistry

Description / Details

We present a theory of a flow of salt solutions in long axisymmetric channels induced by concentration and pressure drops between their ends. The consideration is restricted to thin, compared to the local radius, electrostatic diffuse layers, but remains valid even when the concentration drop is quite large. We show that the magnitude of the diffusio-osmotic fluid flow rate QDOQ_{DO} in the cylinder is the same as in the slit of equal to its diameter thickness, but channels of variable cross-sections could either retard or enhance it, depending on their geometry. The application of the pressure drop Δp0Δp \neq 0 results in an extra contribution QPQ_{P} to the total flow rate of fluid QQ, but does not affect QDOQ_{DO}. We calculate the curves Δp(Q)Δp (Q) for several axisymmetric channels and conclude that they are nearly linear, with the sensitive to the shape slopes. This leads to the possibility of introducing a simple, but rather accurate, cylinder approximation, where the radius of the imaginary cylinder is related to a hydrodynamic resistivity of the real channel and can be easily determined, if its geometry is known. We also derive an equation relating the ionic flux with the total flow rate of fluid and demonstrate that both the sign and magnitude of ionic flux could be tuned by using the appropriate channel shape. Our analysis provides a framework for interpreting experimental and numerical data, as well as may guide the design of micro- and nanofluidic devices.


Source: arXiv:2607.15199v1 - http://arxiv.org/abs/2607.15199v1 PDF: https://arxiv.org/pdf/2607.15199v1 Original Link: http://arxiv.org/abs/2607.15199v1

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Date:
Jul 17, 2026
Topic:
Chemistry
Area:
Chemistry
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